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Chromosome Research : an International Journal on the Molecular, Supramolecular and Evolutionary Aspects of Chromosome Biology
|
September 26, 2015
Transposable elements and G-quadruplexes
Eduard Kejnovsky, Viktor Tokan, Matej Lexa
BMC Genomics
|
March 8, 2018
Quadruplex DNA in long terminal repeats in maize LTR retrotransposons inhibits the expression of a reporter gene in yeast
Viktor Tokan, Janka Puterova, Matej Lexa, et al.
Mobile Genetic Elements
|
March 12, 2014
Quadruplex-forming DNA sequences spread by retrotransposons may serve as genome regulators
Eduard Kejnovsky, Matej Lexa
Bioinformatics (Oxford, England)
|
July 5, 2022
HiC-TE: a computational pipeline for Hi-C data analysis to study the role of repeat family interactions in the genome 3D organization
Matej Lexa, Monika Cechova, Son Hoang Nguyen, et al.
Frontiers in Plant Science
|
June 9, 2020
What Can Long Terminal Repeats Tell Us About the Age of LTR Retrotransposons, Gene Conversion and Ectopic Recombination?
Pavel Jedlicka, Matej Lexa, Eduard Kejnovsky
Genome Biology and Evolution
|
April 2, 2013
Contrasting patterns of transposable element and satellite distribution on sex chromosomes (XY1Y2) in the dioecious plant Rumex acetosa
Pavlina Steflova, Viktor Tokan, Ivan Vogel, et al.
Mobile DNA
|
January 11, 2020
Correction to: Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico study
Pavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Mobile DNA
|
December 25, 2019
Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico study
Pavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Bioinformatics (Oxford, England)
|
July 15, 2020
TE-greedy-nester: structure-based detection of LTR retrotransposons and their nesting
Matej Lexa, Pavel Jedlicka, Ivan Vanat, et al.
Biodata Mining
|
December 19, 2024
Detection and classification of long terminal repeat sequences in plant LTR-retrotransposons and their analysis using explainable machine learning
Jakub Horvath, Pavel Jedlicka, Marie Kratka, et al.
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Showing results (1-10 of 67) with videos related to
Sort By:
Page
of 7
Chromosome Research : an International Journal on the Molecular, Supramolecular and Evolutionary Aspects of Chromosome Biology
|
September 26, 2015
Transposable elements and G-quadruplexes
Eduard Kejnovsky, Viktor Tokan, Matej Lexa
BMC Genomics
|
March 8, 2018
Quadruplex DNA in long terminal repeats in maize LTR retrotransposons inhibits the expression of a reporter gene in yeast
Viktor Tokan, Janka Puterova, Matej Lexa, et al.
Mobile Genetic Elements
|
March 12, 2014
Quadruplex-forming DNA sequences spread by retrotransposons may serve as genome regulators
Eduard Kejnovsky, Matej Lexa
Bioinformatics (Oxford, England)
|
July 5, 2022
HiC-TE: a computational pipeline for Hi-C data analysis to study the role of repeat family interactions in the genome 3D organization
Matej Lexa, Monika Cechova, Son Hoang Nguyen, et al.
Frontiers in Plant Science
|
June 9, 2020
What Can Long Terminal Repeats Tell Us About the Age of LTR Retrotransposons, Gene Conversion and Ectopic Recombination?
Pavel Jedlicka, Matej Lexa, Eduard Kejnovsky
Genome Biology and Evolution
|
April 2, 2013
Contrasting patterns of transposable element and satellite distribution on sex chromosomes (XY1Y2) in the dioecious plant Rumex acetosa
Pavlina Steflova, Viktor Tokan, Ivan Vogel, et al.
Mobile DNA
|
January 11, 2020
Correction to: Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico study
Pavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Mobile DNA
|
December 25, 2019
Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico study
Pavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Bioinformatics (Oxford, England)
|
July 15, 2020
TE-greedy-nester: structure-based detection of LTR retrotransposons and their nesting
Matej Lexa, Pavel Jedlicka, Ivan Vanat, et al.
Biodata Mining
|
December 19, 2024
Detection and classification of long terminal repeat sequences in plant LTR-retrotransposons and their analysis using explainable machine learning
Jakub Horvath, Pavel Jedlicka, Marie Kratka, et al.
Page
of 7